| МОДЕЛЬ П/Н | СЕРИИ | КОЛИЧЕСТВО ЛАБОРАТОРИЙ/КЛБ | УРОВЕНЬ СКОРОСТИ | КОЛИЧЕСТВО ЛОГИЧЕСКИХ ЭЛЕМЕНТОВ / ЯЧЕЕК | ВСЕГО БИТОВ ОЗУ | КОЛИЧЕСТВО ВХОДОВ/ВЫХОДОВ | НАПРЯЖЕНИЕ - ПИТАНИЕ | ТИП КРЕПЛЕНИЯ | РАБОЧАЯ ТЕМПЕРАТУРА | УПАКОВКА / КЕЙС | УПАКОВКА УСТРОЙСТВА ПОСТАВЩИКА |
|---|---|---|---|---|---|---|---|---|---|---|---|
| XC4VLX100-11FF1148I | Virtex-4 LX | 11.520,00 | -11,00 | 99840 | 4478976 | 768 | 1,14 V ~ 1,26 V | Монтаж на поверхность | -40 °C ~ +100 °C (промышленный) | 1148-BBGA (FCBGA) | 1148-FCBGA |
XC4VLX100-11FF1148I: High-Performance Industrial FPGA for Zero-Latency Logic Systems
Сайт XC4VLX100-11FF1148I is a high-speed, high-density FPGA engineered for mission-critical industrial applications. Utilizing Xilinx’s ASMBL™ (Advanced Silicon Modular Block) architecture, this device delivers an impressive 110,592 Logic Cells with the premium -11 класс скорости. It is the go-to solution for engineers who need significant logic headroom and tight timing margins in environments where temperatures fluctuate between -40°C and +100°C.
Размещается в FF1148 Flip-Chip BGA package, this FPGA provides a massive I/O throughput, making it a “heavyweight” choice for high-speed signal processing and complex system-level integration.
Основные направления инженерной деятельности
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Premium -11 Speed Grade: The faster switching fabric of the -11 grade is essential for high-frequency designs (300MHz+). It provides the critical timing slack needed to achieve closure on complex, multi-level logic paths that would struggle on standard -10 grade parts.
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Industrial Thermal Resilience: Сайт Промышленность (-I) rating ensures that the device maintains its performance specifications across a wide thermal envelope. This is vital for outdoor telecommunications infrastructure and deep-floor industrial automation where active cooling may be inconsistent.
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Massive I/O Throughput: Сайт FF1148 package breaks out 768 User I/Os. Leveraging SelectIO™ technology, this allows for massive parallel data handling, easily supporting high-width memory interfaces like DDR2 and QDR-II.
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XtremeDSP™ Hardware Acceleration: Интеграция с 96 DSP48 slices. These hard-coded blocks handle arithmetic-intensive tasks—such as FFTs and digital filtering—at hardware speeds, freeing up standard logic for control plane tasks.
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Balanced Memory Architecture: Характеристики 4,320 Kb of Block RAM, optimized for low-latency data buffering and high-speed FIFO implementations required in real-time streaming applications.
Матрица технических характеристик
| Характеристика | Технические характеристики |
| Логические ячейки | 110,592 |
| Конфигурируемые логические блоки (CLB) | 12,480 |
| Всего блоков оперативной памяти | 4 320 Кб |
| Ломтики DSP48 | 96 |
| Максимальный пользовательский ввод/вывод | 768 |
| Степень скорости | -11 (высокая производительность) |
| Температурный класс | Промышленные (от -40°C до +100°C) |
| Пакет | FF1148 (Flip-Chip BGA) |
Why Specify the LX100-11I?
1. Reliability in High-Utilization Designs
When logic utilization exceeds 75%, routing congestion often causes timing failures. The combination of the ASMBL architecture и -11 класс скорости mitigates this risk, ensuring that your critical paths meet setup and hold requirements even in high-utilization scenarios.
2. Superior Signal Integrity
The Flip-Chip (FF) packaging is engineered to minimize parasitic inductance. In industrial settings where EMI/EMC compliance is non-negotiable, the LX100-11I provides the clean signal eyes and low ground bounce necessary for robust system operation.
3. Long-Term Availability for Mission-Critical Gear
The Virtex-4 LX100 is a mature, field-proven architecture. For projects requiring a 10+ year service life—such as medical imaging backplanes or power grid monitoring—this device offers a predictable and stable platform with a well-documented toolchain.
Приложения
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Аэрокосмическая и оборонная промышленность: Ground-based radar signal processing and secure communication bridges.
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Industrial Automation: High-precision multi-axis motion control and robotics.
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Медицинские системы: Real-time data acquisition for CT scanners and MRI reconstruction.
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Сетевое взаимодействие: High-speed protocol conversion and localized switching fabrics.
